RAT GENE EXPRESSION PROFILING OF DRUG TRANSPORTERS, CYTOCHROME P450s, TRANSFERASES AND NUCLEAR XENOBIOTIC RECEPTORS FOR PREDICTING DRUG EFFECTS - The disclosure describes materials and methods for detecting the expression of genes and generating a gene expression profile from drug-treated rat primary cells or established rat cell lines using a unique combination of rat cytochrome p450 enzyme, nuclear xenobiotic receptor, transferase and transporter gene sequences. The materials include sets of primers, PCR amplicons and arrays. The methods include hybridization assays. Assays for the detection of the expression of the genes are also provided. In addition, the disclosure provides the use of the materials and methods in drug screening assays and, specifically, the detection of potential drug-drug interaction(s).

06-24-2010

20100011888

METHOD AND DEVICE TO EXTRACT COMPONENTS CONTAINED IN A FLUID - Applicants' teachings relate to a method and device to extract components contained in a fluid. More particularly, the applicants' teachings are directed towards a method and sampling device for quick extraction of targeted components from their in vivo surroundings. In accordance with various embodiments of applicants' teachings a sampling device and method to extract components, such as, for example, analytes, from a fluid is provided. The device is interfaced with a fluid source, such as, for example, but not limited to, a circulatory system of an animal, to enable extraction of target molecules with minimal loss of fluid (e.g., blood) to the source. The device facilitates an interface between the circulatory system of an animal and a suitable sampling probe such as, for example, a solid phase microextraction (SPME) probe. The targeted compounds are desorbed in small volumes of solvents that can be analyzed with highly specific instruments. In particular, in various embodiments of applicant's teachings a device to extract components contained in a fluid is provided. The device comprises a housing defining a cavity, with the housing having at least one opening to allow fluid flow into and out of the cavity. The device also comprises a probe insertable into the cavity of the housing. Moreover, the device comprises a channel, with the channel adapted to connect the cavity to a fluid pump, so that when the probe is inserted into the cavity the fluid pump causes fluid to flow into and out of the cavity through the at least one opening and contact the probe in the cavity.